-40%

Balun for 450 ohms balanced antenna to 50 ohms co-axial. 9:1 W2FMI Jerry Sevick

$ 50.16

Availability: 37 in stock
  • Compatible Brand: Universal
  • Condition: New
  • Country/Region of Manufacture: United States
  • Type: Balun (9:1)
  • Model: W2FMI 9:1 Antenna Matching Balun
  • MPN: BAL-450
  • Brand: CWS
  • All returns accepted: ReturnsNotAccepted

    Description

    CWS  9:1 Balun Current Type Jerry Sevick W2FMI Series
    High Power Powder Coated  Core 9:1 ratio; 450 balance antenna to 50 ohms co-axial; 1.5 - 30 Mhz.; Weatherproof box.
    Specifications:
    Frequency Range:
    1.5 - 30 MHz
    Ratio:
    9
    :1
    Termination Impedance (Ohms):
    450
    balanced
    Termination Location:
    Top
    Termination
    Type: High Voltage
    Ceramic feed through
    Enclosure Type:
    Weatherproof box. Can widthstand rain, snow, sun, etc
    Enclosure Material:
    Anodized Aluminium
    Metal
    Core Type:
    K-Type High Power Ferrite core
    Power Handling (CW/SSB):
    1 kW / 2 kW
    Enclosure Height:
    6.25
    in. (6.8 inch with flange)
    Enclosure Width:
    3.80 in.
    Enclosure Depth:
    3.60
    in.
    Lowest Band of Operation:
    200 meters
    Highest Band of Operation:
    10
    meters
    Antenna Mounting Type:
    Antenna wires
    Details:
    Custom K type core is used to obtain the widest bandwidth.
    Typically insertion loss is less than 0.2 dB.
    Highest voltage breakdown ratings.
    BALUN is "
    Current" type
    Anodized
    Aluminum case with SO 239 connector and 2 ceramic feed through post as outputs.
    Application:
    1. Use W2FMI 9:1 balun to matching 50 ohms cable to a balanced load of 450 ohms
    2. Use 2 of these baluns when a 450 ohms ladder line or twin leads is used to replace long runs of coaxial cable. The co-axial cable has more loss at frequencies above 14 mhz as compared to ladder lines. Install one balun on each ends.
    3. Be careful when using the 9:1 balun as the terminations can cause the impedances even though the feedline maybe 450 ohms.
    For example, a center fed half wave dipole, the impedance could be from 50 ohms to 4000 ohms. Also if the center fed dipole is a full wave long, the balun could be seeing impedance of less than 50 ohms to as high as 10K ohms depending on the length of the transmission line.